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transport.go
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transport.go
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// Copyright 2011 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// HTTP client implementation. See RFC 7230 through 7235.
//
// This is the low-level Transport implementation of RoundTripper.
// The high-level interface is in client.go.
package http
import (
"bufio"
"compress/gzip"
"container/list"
"context"
"crypto/tls"
"errors"
"fmt"
"io"
"log"
"net"
"net/http/httptrace"
"net/textproto"
"net/url"
"os"
"reflect"
"strings"
"sync"
"sync/atomic"
"time"
"golang.org/x/net/http/httpguts"
"golang.org/x/net/http/httpproxy"
)
// DefaultTransport is the default implementation of Transport and is
// used by DefaultClient. It establishes network connections as needed
// and caches them for reuse by subsequent calls. It uses HTTP proxies
// as directed by the $HTTP_PROXY and $NO_PROXY (or $http_proxy and
// $no_proxy) environment variables.
var DefaultTransport RoundTripper = &Transport{
Proxy: ProxyFromEnvironment,
DialContext: (&net.Dialer{
Timeout: 30 * time.Second,
KeepAlive: 30 * time.Second,
DualStack: true,
}).DialContext,
ForceAttemptHTTP2: true,
MaxIdleConns: 100,
IdleConnTimeout: 90 * time.Second,
TLSHandshakeTimeout: 10 * time.Second,
ExpectContinueTimeout: 1 * time.Second,
}
// DefaultMaxIdleConnsPerHost is the default value of Transport's
// MaxIdleConnsPerHost.
const DefaultMaxIdleConnsPerHost = 2
// Transport is an implementation of RoundTripper that supports HTTP,
// HTTPS, and HTTP proxies (for either HTTP or HTTPS with CONNECT).
//
// By default, Transport caches connections for future re-use.
// This may leave many open connections when accessing many hosts.
// This behavior can be managed using Transport's CloseIdleConnections method
// and the MaxIdleConnsPerHost and DisableKeepAlives fields.
//
// Transports should be reused instead of created as needed.
// Transports are safe for concurrent use by multiple goroutines.
//
// A Transport is a low-level primitive for making HTTP and HTTPS requests.
// For high-level functionality, such as cookies and redirects, see Client.
//
// Transport uses HTTP/1.1 for HTTP URLs and either HTTP/1.1 or HTTP/2
// for HTTPS URLs, depending on whether the server supports HTTP/2,
// and how the Transport is configured. The DefaultTransport supports HTTP/2.
// To explicitly enable HTTP/2 on a transport, use golang.org/x/net/http2
// and call ConfigureTransport. See the package docs for more about HTTP/2.
//
// Responses with status codes in the 1xx range are either handled
// automatically (100 expect-continue) or ignored. The one
// exception is HTTP status code 101 (Switching Protocols), which is
// considered a terminal status and returned by RoundTrip. To see the
// ignored 1xx responses, use the httptrace trace package's
// ClientTrace.Got1xxResponse.
//
// Transport only retries a request upon encountering a network error
// if the request is idempotent and either has no body or has its
// Request.GetBody defined. HTTP requests are considered idempotent if
// they have HTTP methods GET, HEAD, OPTIONS, or TRACE; or if their
// Header map contains an "Idempotency-Key" or "X-Idempotency-Key"
// entry. If the idempotency key value is an zero-length slice, the
// request is treated as idempotent but the header is not sent on the
// wire.
type Transport struct {
idleMu sync.Mutex
closeIdle bool // user has requested to close all idle conns
idleConn map[connectMethodKey][]*persistConn // most recently used at end
idleConnWait map[connectMethodKey]wantConnQueue // waiting getConns
idleLRU connLRU
reqMu sync.Mutex
reqCanceler map[*Request]func(error)
altMu sync.Mutex // guards changing altProto only
altProto atomic.Value // of nil or map[string]RoundTripper, key is URI scheme
connsPerHostMu sync.Mutex
connsPerHost map[connectMethodKey]int
connsPerHostWait map[connectMethodKey]wantConnQueue // waiting getConns
// Proxy specifies a function to return a proxy for a given
// Request. If the function returns a non-nil error, the
// request is aborted with the provided error.
//
// The proxy type is determined by the URL scheme. "http",
// "https", and "socks5" are supported. If the scheme is empty,
// "http" is assumed.
//
// If Proxy is nil or returns a nil *URL, no proxy is used.
Proxy func(*Request) (*url.URL, error)
// DialContext specifies the dial function for creating unencrypted TCP connections.
// If DialContext is nil (and the deprecated Dial below is also nil),
// then the transport dials using package net.
//
// DialContext runs concurrently with calls to RoundTrip.
// A RoundTrip call that initiates a dial may end up using
// a connection dialed previously when the earlier connection
// becomes idle before the later DialContext completes.
DialContext func(ctx context.Context, network, addr string) (net.Conn, error)
// Dial specifies the dial function for creating unencrypted TCP connections.
//
// Dial runs concurrently with calls to RoundTrip.
// A RoundTrip call that initiates a dial may end up using
// a connection dialed previously when the earlier connection
// becomes idle before the later Dial completes.
//
// Deprecated: Use DialContext instead, which allows the transport
// to cancel dials as soon as they are no longer needed.
// If both are set, DialContext takes priority.
Dial func(network, addr string) (net.Conn, error)
// DialTLS specifies an optional dial function for creating
// TLS connections for non-proxied HTTPS requests.
//
// If DialTLS is nil, Dial and TLSClientConfig are used.
//
// If DialTLS is set, the Dial hook is not used for HTTPS
// requests and the TLSClientConfig and TLSHandshakeTimeout
// are ignored. The returned net.Conn is assumed to already be
// past the TLS handshake.
DialTLS func(network, addr string) (net.Conn, error)
// TLSClientConfig specifies the TLS configuration to use with
// tls.Client.
// If nil, the default configuration is used.
// If non-nil, HTTP/2 support may not be enabled by default.
TLSClientConfig *tls.Config
// TLSHandshakeTimeout specifies the maximum amount of time waiting to
// wait for a TLS handshake. Zero means no timeout.
TLSHandshakeTimeout time.Duration
// DisableKeepAlives, if true, disables HTTP keep-alives and
// will only use the connection to the server for a single
// HTTP request.
//
// This is unrelated to the similarly named TCP keep-alives.
DisableKeepAlives bool
// DisableCompression, if true, prevents the Transport from
// requesting compression with an "Accept-Encoding: gzip"
// request header when the Request contains no existing
// Accept-Encoding value. If the Transport requests gzip on
// its own and gets a gzipped response, it's transparently
// decoded in the Response.Body. However, if the user
// explicitly requested gzip it is not automatically
// uncompressed.
DisableCompression bool
// MaxIdleConns controls the maximum number of idle (keep-alive)
// connections across all hosts. Zero means no limit.
MaxIdleConns int
// MaxIdleConnsPerHost, if non-zero, controls the maximum idle
// (keep-alive) connections to keep per-host. If zero,
// DefaultMaxIdleConnsPerHost is used.
MaxIdleConnsPerHost int
// MaxConnsPerHost optionally limits the total number of
// connections per host, including connections in the dialing,
// active, and idle states. On limit violation, dials will block.
//
// Zero means no limit.
MaxConnsPerHost int
// IdleConnTimeout is the maximum amount of time an idle
// (keep-alive) connection will remain idle before closing
// itself.
// Zero means no limit.
IdleConnTimeout time.Duration
// ResponseHeaderTimeout, if non-zero, specifies the amount of
// time to wait for a server's response headers after fully
// writing the request (including its body, if any). This
// time does not include the time to read the response body.
ResponseHeaderTimeout time.Duration
// ExpectContinueTimeout, if non-zero, specifies the amount of
// time to wait for a server's first response headers after fully
// writing the request headers if the request has an
// "Expect: 100-continue" header. Zero means no timeout and
// causes the body to be sent immediately, without
// waiting for the server to approve.
// This time does not include the time to send the request header.
ExpectContinueTimeout time.Duration
// TLSNextProto specifies how the Transport switches to an
// alternate protocol (such as HTTP/2) after a TLS ALPN
// protocol negotiation. If Transport dials an TLS connection
// with a non-empty protocol name and TLSNextProto contains a
// map entry for that key (such as "h2"), then the func is
// called with the request's authority (such as "example.com"
// or "example.com:1234") and the TLS connection. The function
// must return a RoundTripper that then handles the request.
// If TLSNextProto is not nil, HTTP/2 support is not enabled
// automatically.
TLSNextProto map[string]func(authority string, c *tls.Conn) RoundTripper
// ProxyConnectHeader optionally specifies headers to send to
// proxies during CONNECT requests.
ProxyConnectHeader Header
// MaxResponseHeaderBytes specifies a limit on how many
// response bytes are allowed in the server's response
// header.
//
// Zero means to use a default limit.
MaxResponseHeaderBytes int64
// WriteBufferSize specifies the size of the write buffer used
// when writing to the transport.
// If zero, a default (currently 4KB) is used.
WriteBufferSize int
// ReadBufferSize specifies the size of the read buffer used
// when reading from the transport.
// If zero, a default (currently 4KB) is used.
ReadBufferSize int
// nextProtoOnce guards initialization of TLSNextProto and
// h2transport (via onceSetNextProtoDefaults)
nextProtoOnce sync.Once
h2transport h2Transport // non-nil if http2 wired up
tlsNextProtoWasNil bool // whether TLSNextProto was nil when the Once fired
// ForceAttemptHTTP2 controls whether HTTP/2 is enabled when a non-zero
// Dial, DialTLS, or DialContext func or TLSClientConfig is provided.
// By default, use of any those fields conservatively disables HTTP/2.
// To use a custom dialer or TLS config and still attempt HTTP/2
// upgrades, set this to true.
ForceAttemptHTTP2 bool
}
func (t *Transport) writeBufferSize() int {
if t.WriteBufferSize > 0 {
return t.WriteBufferSize
}
return 4 << 10
}
func (t *Transport) readBufferSize() int {
if t.ReadBufferSize > 0 {
return t.ReadBufferSize
}
return 4 << 10
}
// Clone returns a deep copy of t's exported fields.
func (t *Transport) Clone() *Transport {
t.nextProtoOnce.Do(t.onceSetNextProtoDefaults)
t2 := &Transport{
Proxy: t.Proxy,
DialContext: t.DialContext,
Dial: t.Dial,
DialTLS: t.DialTLS,
TLSClientConfig: t.TLSClientConfig.Clone(),
TLSHandshakeTimeout: t.TLSHandshakeTimeout,
DisableKeepAlives: t.DisableKeepAlives,
DisableCompression: t.DisableCompression,
MaxIdleConns: t.MaxIdleConns,
MaxIdleConnsPerHost: t.MaxIdleConnsPerHost,
MaxConnsPerHost: t.MaxConnsPerHost,
IdleConnTimeout: t.IdleConnTimeout,
ResponseHeaderTimeout: t.ResponseHeaderTimeout,
ExpectContinueTimeout: t.ExpectContinueTimeout,
ProxyConnectHeader: t.ProxyConnectHeader.Clone(),
MaxResponseHeaderBytes: t.MaxResponseHeaderBytes,
ForceAttemptHTTP2: t.ForceAttemptHTTP2,
WriteBufferSize: t.WriteBufferSize,
ReadBufferSize: t.ReadBufferSize,
}
if !t.tlsNextProtoWasNil {
npm := map[string]func(authority string, c *tls.Conn) RoundTripper{}
for k, v := range t.TLSNextProto {
npm[k] = v
}
t2.TLSNextProto = npm
}
return t2
}
// h2Transport is the interface we expect to be able to call from
// net/http against an *http2.Transport that's either bundled into
// h2_bundle.go or supplied by the user via x/net/http2.
//
// We name it with the "h2" prefix to stay out of the "http2" prefix
// namespace used by x/tools/cmd/bundle for h2_bundle.go.
type h2Transport interface {
CloseIdleConnections()
}
// onceSetNextProtoDefaults initializes TLSNextProto.
// It must be called via t.nextProtoOnce.Do.
func (t *Transport) onceSetNextProtoDefaults() {
t.tlsNextProtoWasNil = (t.TLSNextProto == nil)
if strings.Contains(os.Getenv("GODEBUG"), "http2client=0") {
return
}
// If they've already configured http2 with
// golang.org/x/net/http2 instead of the bundled copy, try to
// get at its http2.Transport value (via the "https"
// altproto map) so we can call CloseIdleConnections on it if
// requested. (Issue 22891)
altProto, _ := t.altProto.Load().(map[string]RoundTripper)
if rv := reflect.ValueOf(altProto["https"]); rv.IsValid() && rv.Type().Kind() == reflect.Struct && rv.Type().NumField() == 1 {
if v := rv.Field(0); v.CanInterface() {
if h2i, ok := v.Interface().(h2Transport); ok {
t.h2transport = h2i
return
}
}
}
if t.TLSNextProto != nil {
// This is the documented way to disable http2 on a
// Transport.
return
}
if !t.ForceAttemptHTTP2 && (t.TLSClientConfig != nil || t.Dial != nil || t.DialTLS != nil || t.DialContext != nil) {
// Be conservative and don't automatically enable
// http2 if they've specified a custom TLS config or
// custom dialers. Let them opt-in themselves via
// http2.ConfigureTransport so we don't surprise them
// by modifying their tls.Config. Issue 14275.
// However, if ForceAttemptHTTP2 is true, it overrides the above checks.
return
}
t2, err := http2configureTransport(t)
if err != nil {
log.Printf("Error enabling Transport HTTP/2 support: %v", err)
return
}
t.h2transport = t2
// Auto-configure the http2.Transport's MaxHeaderListSize from
// the http.Transport's MaxResponseHeaderBytes. They don't
// exactly mean the same thing, but they're close.
//
// TODO: also add this to x/net/http2.Configure Transport, behind
// a +build go1.7 build tag:
if limit1 := t.MaxResponseHeaderBytes; limit1 != 0 && t2.MaxHeaderListSize == 0 {
const h2max = 1<<32 - 1
if limit1 >= h2max {
t2.MaxHeaderListSize = h2max
} else {
t2.MaxHeaderListSize = uint32(limit1)
}
}
}
// ProxyFromEnvironment returns the URL of the proxy to use for a
// given request, as indicated by the environment variables
// HTTP_PROXY, HTTPS_PROXY and NO_PROXY (or the lowercase versions
// thereof). HTTPS_PROXY takes precedence over HTTP_PROXY for https
// requests.
//
// The environment values may be either a complete URL or a
// "host[:port]", in which case the "http" scheme is assumed.
// An error is returned if the value is a different form.
//
// A nil URL and nil error are returned if no proxy is defined in the
// environment, or a proxy should not be used for the given request,
// as defined by NO_PROXY.
//
// As a special case, if req.URL.Host is "localhost" (with or without
// a port number), then a nil URL and nil error will be returned.
func ProxyFromEnvironment(req *Request) (*url.URL, error) {
return envProxyFunc()(req.URL)
}
// ProxyURL returns a proxy function (for use in a Transport)
// that always returns the same URL.
func ProxyURL(fixedURL *url.URL) func(*Request) (*url.URL, error) {
return func(*Request) (*url.URL, error) {
return fixedURL, nil
}
}
// transportRequest is a wrapper around a *Request that adds
// optional extra headers to write and stores any error to return
// from roundTrip.
type transportRequest struct {
*Request // original request, not to be mutated
extra Header // extra headers to write, or nil
trace *httptrace.ClientTrace // optional
mu sync.Mutex // guards err
err error // first setError value for mapRoundTripError to consider
}
func (tr *transportRequest) extraHeaders() Header {
if tr.extra == nil {
tr.extra = make(Header)
}
return tr.extra
}
func (tr *transportRequest) setError(err error) {
tr.mu.Lock()
if tr.err == nil {
tr.err = err
}
tr.mu.Unlock()
}
// useRegisteredProtocol reports whether an alternate protocol (as registered
// with Transport.RegisterProtocol) should be respected for this request.
func (t *Transport) useRegisteredProtocol(req *Request) bool {
if req.URL.Scheme == "https" && req.requiresHTTP1() {
// If this request requires HTTP/1, don't use the
// "https" alternate protocol, which is used by the
// HTTP/2 code to take over requests if there's an
// existing cached HTTP/2 connection.
return false
}
return true
}
// roundTrip implements a RoundTripper over HTTP.
func (t *Transport) roundTrip(req *Request) (*Response, error) {
t.nextProtoOnce.Do(t.onceSetNextProtoDefaults)
ctx := req.Context()
trace := httptrace.ContextClientTrace(ctx)
if req.URL == nil {
req.closeBody()
return nil, errors.New("http: nil Request.URL")
}
if req.Header == nil {
req.closeBody()
return nil, errors.New("http: nil Request.Header")
}
scheme := req.URL.Scheme
isHTTP := scheme == "http" || scheme == "https"
if isHTTP {
for k, vv := range req.Header {
if !httpguts.ValidHeaderFieldName(k) {
return nil, fmt.Errorf("net/http: invalid header field name %q", k)
}
for _, v := range vv {
if !httpguts.ValidHeaderFieldValue(v) {
return nil, fmt.Errorf("net/http: invalid header field value %q for key %v", v, k)
}
}
}
}
if t.useRegisteredProtocol(req) {
altProto, _ := t.altProto.Load().(map[string]RoundTripper)
if altRT := altProto[scheme]; altRT != nil {
if resp, err := altRT.RoundTrip(req); err != ErrSkipAltProtocol {
return resp, err
}
}
}
if !isHTTP {
req.closeBody()
return nil, &badStringError{"unsupported protocol scheme", scheme}
}
if req.Method != "" && !validMethod(req.Method) {
return nil, fmt.Errorf("net/http: invalid method %q", req.Method)
}
if req.URL.Host == "" {
req.closeBody()
return nil, errors.New("http: no Host in request URL")
}
for {
select {
case <-ctx.Done():
req.closeBody()
return nil, ctx.Err()
default:
}
// treq gets modified by roundTrip, so we need to recreate for each retry.
treq := &transportRequest{Request: req, trace: trace}
cm, err := t.connectMethodForRequest(treq)
if err != nil {
req.closeBody()
return nil, err
}
// Get the cached or newly-created connection to either the
// host (for http or https), the http proxy, or the http proxy
// pre-CONNECTed to https server. In any case, we'll be ready
// to send it requests.
pconn, err := t.getConn(treq, cm)
if err != nil {
t.setReqCanceler(req, nil)
req.closeBody()
return nil, err
}
var resp *Response
if pconn.alt != nil {
// HTTP/2 path.
t.setReqCanceler(req, nil) // not cancelable with CancelRequest
resp, err = pconn.alt.RoundTrip(req)
} else {
resp, err = pconn.roundTrip(treq)
}
if err == nil {
return resp, nil
}
if http2isNoCachedConnError(err) {
t.removeIdleConn(pconn)
t.decConnsPerHost(pconn.cacheKey)
} else if !pconn.shouldRetryRequest(req, err) {
// Issue 16465: return underlying net.Conn.Read error from peek,
// as we've historically done.
if e, ok := err.(transportReadFromServerError); ok {
err = e.err
}
return nil, err
}
testHookRoundTripRetried()
// Rewind the body if we're able to.
if req.GetBody != nil {
newReq := *req
var err error
newReq.Body, err = req.GetBody()
if err != nil {
return nil, err
}
req = &newReq
}
}
}
// shouldRetryRequest reports whether we should retry sending a failed
// HTTP request on a new connection. The non-nil input error is the
// error from roundTrip.
func (pc *persistConn) shouldRetryRequest(req *Request, err error) bool {
if http2isNoCachedConnError(err) {
// Issue 16582: if the user started a bunch of
// requests at once, they can all pick the same conn
// and violate the server's max concurrent streams.
// Instead, match the HTTP/1 behavior for now and dial
// again to get a new TCP connection, rather than failing
// this request.
return true
}
if err == errMissingHost {
// User error.
return false
}
if !pc.isReused() {
// This was a fresh connection. There's no reason the server
// should've hung up on us.
//
// Also, if we retried now, we could loop forever
// creating new connections and retrying if the server
// is just hanging up on us because it doesn't like
// our request (as opposed to sending an error).
return false
}
if _, ok := err.(nothingWrittenError); ok {
// We never wrote anything, so it's safe to retry, if there's no body or we
// can "rewind" the body with GetBody.
return req.outgoingLength() == 0 || req.GetBody != nil
}
if !req.isReplayable() {
// Don't retry non-idempotent requests.
return false
}
if _, ok := err.(transportReadFromServerError); ok {
// We got some non-EOF net.Conn.Read failure reading
// the 1st response byte from the server.
return true
}
if err == errServerClosedIdle {
// The server replied with io.EOF while we were trying to
// read the response. Probably an unfortunately keep-alive
// timeout, just as the client was writing a request.
return true
}
return false // conservatively
}
// ErrSkipAltProtocol is a sentinel error value defined by Transport.RegisterProtocol.
var ErrSkipAltProtocol = errors.New("net/http: skip alternate protocol")
// RegisterProtocol registers a new protocol with scheme.
// The Transport will pass requests using the given scheme to rt.
// It is rt's responsibility to simulate HTTP request semantics.
//
// RegisterProtocol can be used by other packages to provide
// implementations of protocol schemes like "ftp" or "file".
//
// If rt.RoundTrip returns ErrSkipAltProtocol, the Transport will
// handle the RoundTrip itself for that one request, as if the
// protocol were not registered.
func (t *Transport) RegisterProtocol(scheme string, rt RoundTripper) {
t.altMu.Lock()
defer t.altMu.Unlock()
oldMap, _ := t.altProto.Load().(map[string]RoundTripper)
if _, exists := oldMap[scheme]; exists {
panic("protocol " + scheme + " already registered")
}
newMap := make(map[string]RoundTripper)
for k, v := range oldMap {
newMap[k] = v
}
newMap[scheme] = rt
t.altProto.Store(newMap)
}
// CloseIdleConnections closes any connections which were previously
// connected from previous requests but are now sitting idle in
// a "keep-alive" state. It does not interrupt any connections currently
// in use.
func (t *Transport) CloseIdleConnections() {
t.nextProtoOnce.Do(t.onceSetNextProtoDefaults)
t.idleMu.Lock()
m := t.idleConn
t.idleConn = nil
t.closeIdle = true // close newly idle connections
t.idleLRU = connLRU{}
t.idleMu.Unlock()
for _, conns := range m {
for _, pconn := range conns {
pconn.close(errCloseIdleConns)
}
}
if t2 := t.h2transport; t2 != nil {
t2.CloseIdleConnections()
}
}
// CancelRequest cancels an in-flight request by closing its connection.
// CancelRequest should only be called after RoundTrip has returned.
//
// Deprecated: Use Request.WithContext to create a request with a
// cancelable context instead. CancelRequest cannot cancel HTTP/2
// requests.
func (t *Transport) CancelRequest(req *Request) {
t.cancelRequest(req, errRequestCanceled)
}
// Cancel an in-flight request, recording the error value.
func (t *Transport) cancelRequest(req *Request, err error) {
t.reqMu.Lock()
cancel := t.reqCanceler[req]
delete(t.reqCanceler, req)
t.reqMu.Unlock()
if cancel != nil {
cancel(err)
}
}
//
// Private implementation past this point.
//
var (
// proxyConfigOnce guards proxyConfig
envProxyOnce sync.Once
envProxyFuncValue func(*url.URL) (*url.URL, error)
)
// defaultProxyConfig returns a ProxyConfig value looked up
// from the environment. This mitigates expensive lookups
// on some platforms (e.g. Windows).
func envProxyFunc() func(*url.URL) (*url.URL, error) {
envProxyOnce.Do(func() {
envProxyFuncValue = httpproxy.FromEnvironment().ProxyFunc()
})
return envProxyFuncValue
}
// resetProxyConfig is used by tests.
func resetProxyConfig() {
envProxyOnce = sync.Once{}
envProxyFuncValue = nil
}
func (t *Transport) connectMethodForRequest(treq *transportRequest) (cm connectMethod, err error) {
cm.targetScheme = treq.URL.Scheme
cm.targetAddr = canonicalAddr(treq.URL)
if t.Proxy != nil {
cm.proxyURL, err = t.Proxy(treq.Request)
}
cm.onlyH1 = treq.requiresHTTP1()
return cm, err
}
// proxyAuth returns the Proxy-Authorization header to set
// on requests, if applicable.
func (cm *connectMethod) proxyAuth() string {
if cm.proxyURL == nil {
return ""
}
if u := cm.proxyURL.User; u != nil {
username := u.Username()
password, _ := u.Password()
return "Basic " + basicAuth(username, password)
}
return ""
}
// error values for debugging and testing, not seen by users.
var (
errKeepAlivesDisabled = errors.New("http: putIdleConn: keep alives disabled")
errConnBroken = errors.New("http: putIdleConn: connection is in bad state")
errCloseIdle = errors.New("http: putIdleConn: CloseIdleConnections was called")
errTooManyIdle = errors.New("http: putIdleConn: too many idle connections")
errTooManyIdleHost = errors.New("http: putIdleConn: too many idle connections for host")
errCloseIdleConns = errors.New("http: CloseIdleConnections called")
errReadLoopExiting = errors.New("http: persistConn.readLoop exiting")
errIdleConnTimeout = errors.New("http: idle connection timeout")
// errServerClosedIdle is not seen by users for idempotent requests, but may be
// seen by a user if the server shuts down an idle connection and sends its FIN
// in flight with already-written POST body bytes from the client.
// See https://github.com/golang/go/issues/19943#issuecomment-355607646
errServerClosedIdle = errors.New("http: server closed idle connection")
)
// transportReadFromServerError is used by Transport.readLoop when the
// 1 byte peek read fails and we're actually anticipating a response.
// Usually this is just due to the inherent keep-alive shut down race,
// where the server closed the connection at the same time the client
// wrote. The underlying err field is usually io.EOF or some
// ECONNRESET sort of thing which varies by platform. But it might be
// the user's custom net.Conn.Read error too, so we carry it along for
// them to return from Transport.RoundTrip.
type transportReadFromServerError struct {
err error
}
func (e transportReadFromServerError) Unwrap() error { return e.err }
func (e transportReadFromServerError) Error() string {
return fmt.Sprintf("net/http: Transport failed to read from server: %v", e.err)
}
func (t *Transport) putOrCloseIdleConn(pconn *persistConn) {
if err := t.tryPutIdleConn(pconn); err != nil {
pconn.close(err)
}
}
func (t *Transport) maxIdleConnsPerHost() int {
if v := t.MaxIdleConnsPerHost; v != 0 {
return v
}
return DefaultMaxIdleConnsPerHost
}
// tryPutIdleConn adds pconn to the list of idle persistent connections awaiting
// a new request.
// If pconn is no longer needed or not in a good state, tryPutIdleConn returns
// an error explaining why it wasn't registered.
// tryPutIdleConn does not close pconn. Use putOrCloseIdleConn instead for that.
func (t *Transport) tryPutIdleConn(pconn *persistConn) error {
if t.DisableKeepAlives || t.MaxIdleConnsPerHost < 0 {
return errKeepAlivesDisabled
}
if pconn.isBroken() {
return errConnBroken
}
pconn.markReused()
t.idleMu.Lock()
defer t.idleMu.Unlock()
// HTTP/2 (pconn.alt != nil) connections do not come out of the idle list,
// because multiple goroutines can use them simultaneously.
// If this is an HTTP/2 connection being “returned,” we're done.
if pconn.alt != nil && t.idleLRU.m[pconn] != nil {
return nil
}
// Deliver pconn to goroutine waiting for idle connection, if any.
// (They may be actively dialing, but this conn is ready first.
// Chrome calls this socket late binding.
// See https://insouciant.org/tech/connection-management-in-chromium/.)
key := pconn.cacheKey
if q, ok := t.idleConnWait[key]; ok {
done := false
if pconn.alt == nil {
// HTTP/1.
// Loop over the waiting list until we find a w that isn't done already, and hand it pconn.
for q.len() > 0 {
w := q.popFront()
if w.tryDeliver(pconn, nil) {
done = true
break
}
}
} else {
// HTTP/2.
// Can hand the same pconn to everyone in the waiting list,
// and we still won't be done: we want to put it in the idle
// list unconditionally, for any future clients too.
for q.len() > 0 {
w := q.popFront()
w.tryDeliver(pconn, nil)
}
}
if q.len() == 0 {
delete(t.idleConnWait, key)
} else {
t.idleConnWait[key] = q
}
if done {
return nil
}
}
if t.closeIdle {
return errCloseIdle
}
if t.idleConn == nil {
t.idleConn = make(map[connectMethodKey][]*persistConn)
}
idles := t.idleConn[key]
if len(idles) >= t.maxIdleConnsPerHost() {
return errTooManyIdleHost
}
for _, exist := range idles {
if exist == pconn {
log.Fatalf("dup idle pconn %p in freelist", pconn)
}
}
t.idleConn[key] = append(idles, pconn)
t.idleLRU.add(pconn)
if t.MaxIdleConns != 0 && t.idleLRU.len() > t.MaxIdleConns {
oldest := t.idleLRU.removeOldest()
oldest.close(errTooManyIdle)
t.removeIdleConnLocked(oldest)
}
// Set idle timer, but only for HTTP/1 (pconn.alt == nil).
// The HTTP/2 implementation manages the idle timer itself
// (see idleConnTimeout in h2_bundle.go).
if t.IdleConnTimeout > 0 && pconn.alt == nil {
if pconn.idleTimer != nil {
pconn.idleTimer.Reset(t.IdleConnTimeout)
} else {
pconn.idleTimer = time.AfterFunc(t.IdleConnTimeout, pconn.closeConnIfStillIdle)
}
}
pconn.idleAt = time.Now()
return nil
}
// queueForIdleConn queues w to receive the next idle connection for w.cm.
// As an optimization hint to the caller, queueForIdleConn reports whether
// it successfully delivered an already-idle connection.
func (t *Transport) queueForIdleConn(w *wantConn) (delivered bool) {
if t.DisableKeepAlives {
return false
}
t.idleMu.Lock()
defer t.idleMu.Unlock()
// Stop closing connections that become idle - we might want one.
// (That is, undo the effect of t.CloseIdleConnections.)
t.closeIdle = false
if w == nil {
// Happens in test hook.
return false
}
// Look for most recently-used idle connection.
if list, ok := t.idleConn[w.key]; ok {
stop := false
delivered := false
for len(list) > 0 && !stop {
pconn := list[len(list)-1]
if pconn.isBroken() {
// persistConn.readLoop has marked the connection broken,
// but Transport.removeIdleConn has not yet removed it from the idle list.
// Drop on floor on behalf of Transport.removeIdleConn.
list = list[:len(list)-1]
continue
}
delivered = w.tryDeliver(pconn, nil)
if delivered {
if pconn.alt != nil {
// HTTP/2: multiple clients can share pconn.
// Leave it in the list.
} else {
// HTTP/1: only one client can use pconn.
// Remove it from the list.
t.idleLRU.remove(pconn)
list = list[:len(list)-1]
}
}
stop = true
}
if len(list) > 0 {
t.idleConn[w.key] = list
} else {
delete(t.idleConn, w.key)
}
if stop {
return delivered
}
}
// Register to receive next connection that becomes idle.
if t.idleConnWait == nil {
t.idleConnWait = make(map[connectMethodKey]wantConnQueue)
}
q := t.idleConnWait[w.key]
q.cleanFront()
q.pushBack(w)
t.idleConnWait[w.key] = q
return false
}
// removeIdleConn marks pconn as dead.
func (t *Transport) removeIdleConn(pconn *persistConn) {
t.idleMu.Lock()
defer t.idleMu.Unlock()
t.removeIdleConnLocked(pconn)
}
// t.idleMu must be held.
func (t *Transport) removeIdleConnLocked(pconn *persistConn) {
if pconn.idleTimer != nil {
pconn.idleTimer.Stop()
}
t.idleLRU.remove(pconn)
key := pconn.cacheKey
pconns := t.idleConn[key]
switch len(pconns) {
case 0:
// Nothing
case 1:
if pconns[0] == pconn {
delete(t.idleConn, key)
}
default:
for i, v := range pconns {
if v != pconn {
continue
}
// Slide down, keeping most recently-used
// conns at the end.
copy(pconns[i:], pconns[i+1:])
t.idleConn[key] = pconns[:len(pconns)-1]
break
}
}
}
func (t *Transport) setReqCanceler(r *Request, fn func(error)) {
t.reqMu.Lock()
defer t.reqMu.Unlock()
if t.reqCanceler == nil {
t.reqCanceler = make(map[*Request]func(error))
}
if fn != nil {
t.reqCanceler[r] = fn
} else {
delete(t.reqCanceler, r)
}
}